03218nas a2200481 4500000000100000008004100001653001000042653001100052653001100063653000900074653000900083653001600092653002800108653002400136653001500160653003000175653003600205653005100241653001800292653002800310653002700338653001200365653002300377653001000400100002200410700002000432700001800452700001900470700001700489700001600506700002600522700001500548700002300563700001800586700002200604700001900626700001800645245018000663300000800843490000700851520186400858022001402722 2017 d10aAdult10aFemale10aHumans10aAged10aMale10aMiddle Aged10aCross-Sectional Studies10aProspective Studies10aRegistries10aDiabetes Mellitus, Type 210aPolymorphism, Single Nucleotide10aHydroxymethylglutaryl-CoA Reductase Inhibitors10aBlood Glucose10aAmino Acid Substitution10aAryldialkylphosphatase10aInsulin10aInsulin Resistance10aJapan1 aHirakawa Yoichiro1 aOhkuma Toshiaki1 aKomorita Yuji1 aIwase Masanori1 aFujii Hiroki1 aIde Hitoshi1 aJodai-Kitamura Tamaki1 aSumi Akiko1 aYoshinari Masahito1 aNakamura Udai1 aKitazono Takanari1 aHirano Atsushi1 aKubo Michiaki00aThe gene-treatment interaction of paraoxonase-1 gene polymorphism and statin therapy on insulin secretion in Japanese patients with type 2 diabetes: Fukuoka diabetes registry. a1460 v183 a
BACKGROUND: Although statins deteriorate glucose metabolism, their glucose-lowering effects have emerged in some situations. Here, we assessed whether these effects are a consequence of statins' interaction with paraoxonase (PON)1 enzyme polymorphism.
METHODS: Adult Japanese type 2 diabetes patients (n = 3798) were enrolled in a cross-sectional study. We used Q192R polymorphism of the PON1 gene as a representative single-nucleotide polymorphism and focused on the effects of the wild-type Q allele, in an additive manner. For patients with and without statin therapy, the associations of this allele with fasting plasma glucose (FPG), HbA, C-peptide, HOMA2-%β, and HOMA2-IR were investigated separately using a linear regression model, and were compared between groups by testing interactions. Sensitivity analyses were performed using propensity score to further control the imbalance of characteristics between groups.
RESULTS: Among patients with statin therapy, there were linear associations of the number of Q alleles with decreased FPG and HbA, and with increased serum C peptide and HOMA2-%β (all P < 0.01 for trends), while such associations were not observed among those without statin therapy. These differences were statistically significant only for serum C peptide and HOMA2-%β (P < 0.01 for interactions). These associations remained significant after multiple explanatory variable adjustment. Sensitivity analyses using propensity score showed broad consistency of these associations.
CONCLUSIONS: Patients with the Q allele of the PON1 Q192R polymorphism who were treated with statins exhibited improvement in glucose metabolism, especially in insulin secretion, suggesting the importance of genotyping PON1 Q192R to identify those who could benefit from statin therapy.
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